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The Economics of Ecosystems and Biodiversity for
Agriculture and FoodAlexander Mueller, TEEBAgFood Study
Lead
TEEBAgFoodAlexander Mueller, TEEBAgFood Study
Lead
The TEEBAgFood study is designed to provide• a comprehensive economic
evaluation of the ‘eco-agri-food systems’ complex, and
• demonstrate that the economic environment in which farmers operate is distorted by significant externalities, both negative and positive, and
• a lack of awareness of dependency on natural and social capital
‘The Good’ – some examples+ Agriculture employs 1 in 3 people of the world’s economically active labour force, or about 1.3 billion people. For the 70 per cent of the world's poor living in rural areas, agriculture is the main source of income and employment.
+ Smallholder farms (i.e. less than 2 hectares) represent over 475 million of the world’s 570 million farms and, in much of the developing world, they produce over 80 per cent of the food consumed. + Food production systems produce approximately 2,800 calories per person per day which is enough to feed the world population today.
- Eighty per cent of new agricultural lands have replaced tropical forests since the 1980s, a trend resulting in significant biodiversity loss and ecosystem degradation.
- Crop and livestock farming produce between five and six billion tons of CO2-equivalent in greenhouse gas (GHG) emissions each year, the agricultural sector is still expanding.
- The agricultural sector utilizes 70 per cent of the water resources we withdraw from rivers, lakes and aquifers, raising serious concerns in terms of sustainability and security.
- Still 825 Mill. people are hungry.
‘The Bad’ – some examples
The visible and invisible flows of agricultural production
The visible and invisible flows of agricultural production
The visible and invisible flows of agricultural production
The visible and invisible flows of agricultural production
The visible and invisible flows of agricultural production
The visible and invisible flows of agricultural production
Eco-agri-food systems complex – impacts and dependencies
TEEB – three different levels of action:
1. Recognizing value – identifying the wide range of benefits in ecosystems, landscapes and biodiversity, such as provisioning, regulating, habitat/supporting and cultural services
2. Demonstrating value – using economic tools and methods to make nature’s services economically visible in order to support decision-makers wishing to assess the full costs and benefits of land-use change
3. Capturing value – incorporating ecosystem and biodiversity benefits into decision-making through incentives and price signals
Feeder Studies
• The System of Rice Intensification (SRI) includes intermittent flooding as part of the production package.
• SRI advises transplanting of young (eight to ten days old) single rice seedlings, with care and spacing, and applying intermittent irrigation and drainage to maintain soil aeration.
• In addition, the use of a mechanical rotary hoe or weeder to aerate the soil and control weeds is encouraged.
Rice StudyConventional vs SRI production
Water consumption costs ($/ha)
Revenue ($/ha) Water consumption costs ($/ha)
Revenue ($/ha) Water consumption costs ($/ha)
Revenue ($/ha)
Senegal (IL) Philippines (IL) Cambodia (RL)
0
500
1000
1500
2000
2500
3000
801
2302
1124 1099
626
2422
1692
1422
Coventional SRI
Increasing rice yields vs Reducing water consumption
Increasing rice yields vs Reducing water consumption: switching to SRISenegal
– Society would save about US$ 11 million in water consumption related health and environmental costs.
– At the same time, the rice producer community would gain a total of US$17 million through yield increases – a clear synergy.
is supported by